LASER. Analog Laser Displacement Transducer. LAS Series. Key-Features:

LASER Analog Laser Displacement Transducer LAS Series Key-Features: Content: Measurement Principle & Installation Overview of the Series Technical Data Technical Drawing Linearity & Resolution Order Code Accessories 29.07.15...2...3.4...7...8..11..12 - Available measurement ranges: 10 to 800 mm - Resolution up to 2 µm, linearity up to ±6 µm - Spot and line laser versions - Individual parametrization by teach-in procedure - Protection class: IP67 - Working temperature: 0 to 50 C - Very precise distance measurement on most materials - Protected against reverse polarity and short circuit - Analog output 4..20 ma and/or 0...10 V

-2- INTRODUCTION LAS laser sensors cover measurement ranges from 1 to 800 mm. The integrated micro-controller delivers an accurate output signal, which is proportional to the detected distance. External analysers to evaluate the signals are not required. Reliable operation, independent of color or other influences of the surface, is ensured by sophisticated electronic elements integrated in the system. The small visible laser spot allows a simple and precise orientation of the sensor. Distances to rough surfaces can be measured by using a fine laser line instead of the spot. MEASURING PRINCIPLE The triangulation principle is basic for this measurement method. The laser beam in the form of a small spot arrives on the surface of the target, while the detector of the system captures its position. The distance itself is calculated by means of the change of the angle. Achievable resolution and accuracy are therefore influenced mainly by the distance d: In proximity of the sensor, a large angular change a1 can be obtained, whereas larger values result in a smaller angle a2, thus in reduced accuracy (see drawing). A photo diode array integrated in the sensor represents the receiver, high speed versions use a PSD element. The receiver is directly coupled to a micro-controller, being part of the system. This microcontroller analyses the light distribution on the element, calculates the exact angle and out of it the distance to the object. The calculated distance is either transferred to a serial port or alternatively is converted to a proportional output current. The micro-controller guarantees a very high linearity and accuracy. The combination of photo diode array and micro-controller allows a suppression of interfering reflections and ensures a reliable results even on most critical surfaces. Blind range Measurement range The sensor automatically adapts to the surface colour by a change of its internal sensitivity. This way influences due to the target colour are nearly excluded. An integrated digital output is activated whenever the sensor does not receive enough light (pollution signal), or if no object within the measuring range can be detected at all. a2 a1 d d INSTALLATION Spot laser The object is sampled by a focussed laser beam. This version is the most preferred within the LAS series. Line laser The laser beam is expanded to a fine line, by means of a deflection unit. Typical applications for sampling a target with a line laser are the position or thickness measurements of objects with rough, uneven, porous or interrupted surfaces. Teach-in function The desired range can conveniently be adapted within the maximum measurement range by means of the teach-in line or button. The analog output has its full stroke within the teached range. The default configuration uses the maximum measurement range. A separate description of the teach-in procedure is available upon request. Installation The first condition for a successful distance measurement is the absence of any obstruction in the light path, as shown in fig. 3. The receiver optics must be able to detect the light spot directly (fig. 1 and 2). (1) (2) (3) For highly polished or mirror-like objects it is important to keep the direct reflection away from the detector. In these cases, it is recommended to slightly tilt the sensor (fig. 4). WRONG Optimum results are obtained by transverse installation of the sensor with respect to the target movement (fig. 5). For triangulation sensors, there is a simple rule, that the distance between sensor and target should be as small as possible. The smaller the working range the better the linearity and accuracy. Electromagnetic compatibility: The sensor must correctly be grounded, a shielded cable is recommended. Cleaning of the laser window 1) dry cleaning with a soft brush 2) cleaning with a dry, soft, antistatic cloth 3) wet cleaning with clear water, approx. 30 degree Celsius, if necessary with a little mild soap. Please do NOT use window cleaner!! (4) (5)

-3- OVERVIEW OF THE LAS SERIES LAS-TM LAS-TM L LAS-TB LAS-T/TL Smallest working range within the series * 16 50 50 200 30 Largest working range within the series ** 550 550 200 1000 600 Smallest measurement range within the series 10 300 10 800 40 Largest measurement range within the series 500 500 100 800 500 Smallest linearity error within the series ±0,006 ±0,05 <0,045 ±0,011 +/- 0,012 Best resolution within the series 0,002 0,010 <0,015 0,020 0,004 Highest sampling rate within the series [ms] <0,9 <0,9 <2 <4 <0,9 LAS-T Measuring range teachable Spot laser Line laser LAS-TL 2 LAS-T5 Laser class 2 2 1 Output signal 0...10 V 2 Output signal 4...20 ma Output signal 0...10 V and 4...20 ma Alarm output PNP Connector M8, 4-pole Connector M12, 5-pole Connector M12, 8-pole Special properties Very compact Applicable f or mat Outstanding price- black surf aces perf ormance ratio * corresponds to the blind range of the sensor ** corresponds to the blind range + the measurement range CONNECTION LAS-T / LAS-TL Electrical connection LAS-T/ LAS-TL PIN Cable colour K8P.. Function 1 white n. c. 2 brown V+ 3 green 4...20 ma 4 y ellow Teach-in 5 grey Alarm 6 pink 0...10 V 7 blue GND 8 red Sy nchro-in Alarm output The alarm output is activated, as soon as the object is outside of the measurement range, or if the received signals are useless for a distance measurement (too low, or too high). In both cases the analog output signal is 4 ma / resp. 0 V. The sensor has no internal hold function to bridge missing measurement signals. Therefore it may happen in critical applications (extremely bright surfaces) that the output shortly drops to 4 ma / resp. 0V, when the measurement signal gets lost. By checking the status of the alarm output before making a measurement, this false output signal can be identified.

-4- TECHNICAL DATA LAS-TM / LAS-T SERIES LAS-TM: Very compact design Measurement range teachable Type of analog output: 4...20 ma or 0...10 V LAS-T/TL: Dual analog output: 4...20 ma and 0...10 V Measurement range teachable Synchronization input Alarm output Spot laser LAS-TM-10 LAS-TM-104 Line laser LAS-TM-300 LAS-TM-500 LAS-T-800 LAS-TML-300 LAS-TML-500 LAS-TL-800 200...1000 Measurement range 16...26 16...120 50...350 50...550 Resolution * 0.002...0.005 0.002...0.12 0.01...0.40 0.01...1.15 0.02...0.4 Linearity error * ±0.006...0.015 ±0.015...0.35 ±0.05...1.2 ±0.08...3.5 ±0.11...1.65 Min. teach-in range >1 >2 >5 >10 >10 Response time [ms] < 0.9 < 0.9 < 0.9 <2 <4 - PNP**** Photo diode array Sensor element Alarm output - - - Power-ON indicator LED green Alarm indicator LED red Pollution indicator LED red f lashing Supply [VDC] Max. current consumption Load resistance 12...28 [ma] 100 80 [Ω] Light source Laser diode red, pulsed Laser class 2 Wavelength 100 4...20 ma: <300, 0...10 V: >100 k [nm] 650 Safety features y es / y es Housing material Zinc diecasting Aluminium Protection class Aluminium Aluminium IP67 Working temperature [ C] 0...50 Connection M8 connector, 4 poles Beam diameter spot laser Beam ty pe, line laser *** 0.5...0.2 0.9...0.5 - - M12 connector, 8 poles 1 1 2 Beam height - - 4.0...9.0 4.0...11.0 6...20 Width - - 2 2.0...1.0 02.05.15 Output signal ** 4...20 ma or 0...10 V ** 4...20 ma and 0...10 V * Values for linearity and resolution are given for a mat white reference surface. ** Type of analog output (4...20 ma or 0...10 V) has to be specified when ordering. *** The detector calculates an optical (not a mathematical) averaging of the sampled surface, i.e. a kind of a surface integral. **** Binary open collector switching output with PNP transistor switching to +Vs. Consequently the load current flows from the switching output through the load resistance to 0 V. A suppressor diode is integrated and also an internal load resistor of approx. 10 kohm 50 kohm for measurement purposes. Electrical connection LAS-TM, LAS-TML, (LAS-T/TL see page 3) Connection cable Cable with M8 mating connector PIN Function 1 V+ 2 Teach-in 3 GND 4 Signal + K4P2M-S-M8 2 m, straight connector, 4 pole, shielded K4P5M-S-M8 5 m, straight connector, 4 pole, shielded PIN Cable colour 1 brown 2 white 3 blue 4 black

-5- TECHNICAL DATA LAS-TB SERIES LAS-TB: Line laser Made for mat black surfaces Measurement range teachable Type of analog output: 4...20 ma or 0...10 V Line laser LAS-TB-10 LAS-TB-40 Measurement range 50...60 60...100 LAS-TB-100 100...200 Resolution * <0.015 0.015...0.038 0.039...0.15 Linearity error * <0.045 ±0.047...0.118 ±0.123...0.457 Min. teach-in range >1 >4 >5 Response time [ms] <2 Sensor element Photo diode array Alarm output - Power-ON indicator LED green Alarm indicator LED red Pollution indicator LED red f lashing Supply [VDC] Max. current consumption Load resistance 12...28 [ma] 80,0 [Ω] 4...20 ma: <300, 0...10 V: >100 k Light source Laser diode red, pulsed Laser class 1 Wav elength [nm] 650 Saf ety f eatures y es / y es Housing material Aluminium Protection class IP67 Working temperature [ C] 0...50 Connection M8 connector, 4 poles Beam ty pe, line laser *** 0.1...0.18 0.11...0.45 0.2...0.74 Beam height 1.1 1.7 2.8...3.7 [%] >0.5 >0.8 >2 Width Output signal ** 4...20 ma or 0...10 V * Values f or linearity and resolution are giv en f or a mat white ref erence surf ace. ** Ty pe of analog output (4...20 ma or 0...10 V) has to be specif ied when ordering. *** The detector calculates an optical (not a mathematical) averaging of the sampled surface, i.e. a kind of a surface integral. Electrical connection LAS-TB Connection cable Cable with M8 mating connector PIN Function 1 V+ 2 Teach-in 3 GND 4 Signal + K4P2M-S-M8 2 m, straight connector, 4 pole, shielded K4P5M-S-M8 5 m, straight connector, 4 pole, shielded PIN Cable colour 1 brown 2 white 3 blue 4 black

-6- TECHNICAL DATA LAS-T5 SERIES LAS-T5: Low-cost series for conventional applications. Measuring range teachable. Type of analog output: 4...20 ma or 0...10 V LAS-T5-40 LAS-T5-100 LAS-T5-250 LAS-T5-500 30...70 30...130 50...300 100...600 0,004...0,02 0,005...0,06 0,01...0,33 0,015...0,67 ±0,012...0,06 ±0,015...0,2 ±0,03...1 ±0,05...2 Minimum Teach-in-range >2 >3 >5 >10 Response time [ms] Measuring range Resolution * Linearity error * < 0,9 Sensor element Photo diode array Power ON indicator LED green Alarm lamp LED red Pollution indicator LED red, f lashing Supply [VDC] Max. current consumption Load resistance 12...28 [ma] 100 [Ω] 4...20 ma: <300, 0...10 V: >100 k Light source Laser diode red, pulsed Laser class 2 Wav elength [nm] 650 Saf ety f eatures Protection against rev erse polarity and short circuit Housing material Zinc diecasting Protection class IP67 Working temperature [ C] 0...50 Connection M12 plug, 5-pole Beam diameter spot laser 1...0,2 Analogue output ** 2...1 2,0 4...20 ma, 0...10 V * Values f or linearity and resolution are giv en f or a mat white ref erence surf ace. ** Ty pe of analog output (4...20 ma or 0...10 V) has to be specif ied when ordering. Electrical connection LAS-T5 PIN Connection cable Function Cable with M12 connector, 5 pole, shielded, IP67 1 V+ K5P2M-S-M12 2 m, M12 connector straight 2 Signal K5P5M-S-M12 5 m, M12 connector straight 3 GND K5P10M-S-M12 10 m, M12 connector straight 4 n. c. 5 Teach-in K5P2M-SW-M12 2 m, M12 connector angular K5P5M-SW-M12 5 m, M12 connector angular K5P10M-SW-M12 10 m, M12 connector angular PIN cable colour 1 brown 2 white 3 blue 4 black 5 grey 2,0

-7- TECHNICAL DRAWING LAS-TM-10 / LAS-TM-104 LAS-T5-40...500 LAS-T-800 / LAS-TL-800 LAS-TM-300 / LAS-TM-500 / LAS-TB-10 / LAS-TB-40 / LAS-TB-100

-8- LINEARITY / RESOLUTION - LAS-TM / LAS-T SERIES When teaching the measurement range, it is recommended always to select the smallest possible range, because this way the resolution is increased and the linearity error decreased. Also keep in mind that the distance between sensor and target should be as small as possible. LAS-TM-10 LAS-TM-104 LAS-TM-300 LAS-TM-500 LAS-T-800 MB stands for teached measurement range.

-9- LINEARITY / RESOLUTION - LAS-TB SERIES When teaching the measurement range, it is recommended always to select the smallest possible range, because this way the resolution is increased and the linearity error decreased. Also keep in mind that the distance between sensor and target should be as small as possible. LAS-TB-10 LAS-TB-40 LAS-TB-100 MB stands for teached measurement range.

- 10 - LINEARITY / RESOLUTION - LAS-T5 SERIES When teaching the measurement range, it is recommended always to select the smallest possible range, because this way the resolution is increased and the linearity error decreased. Also keep in mind that the distance between sensor and target should be as small as possible. LAS-T5-40 LAS-T5-100 LAS-T5-250 LAS-T5-500 MB stands for teached measurement range.

- 11 - ORDER CODE LAS-TM / LAS-TML / LAS-TB LAS-T Standard version, spot laser Standard version, line laser Line laser, for black surfaces Type of output M ML B 420A 10V Analog output 4...20 ma Analog output 0...10 V Measurement range 16...26 mm (M), 50...60 mm (B) 60...100 mm (B) 100...200 mm (B) 16...120 mm (M) 50...350 mm (M), (ML) 50...550 mm (M), (ML) 10 40 100 104 300 500 ORDER CODE LAS-T / LAS-TL LAS-T Spot laser Line laser Type of output L A Analog output 4...20 ma and 0...10 V Measurement range 200...1000 mm 800 ORDER CODE LAS-T5 LAS-T5 Measurement range 30...70 mm 30...130 mm 50...300 mm 100...600 mm 40 100 250 500 Type of output 420A 10V Analog output 4...20 ma Analog output 0...10 V

- 12 - ACCESSORIES Connection cable, 5 pole, shielded, with mating M12 connector Connection cable, 4 pole, shielded, with mating M8 connector for LAS-T5 series for LAS-TM / LAS-TML / LAS-TB series K5P2M-S-M12 2 m, connector straight K4P2M-S-M8 2 m, connector straight K5P5M-S-M12 5 m, connector straight K4P5M-S-M8 5 m, connector straight K5P10M-S-M12 10 m, connector straight K5P2M-SW-M12 2 m, connector angular Protection glass for series LAS-T5, LAS-T/TL (only up to 500 mm FS) K5P5M-SW-M12 5 m, connector angular Schutzglas-LAS K5P10M-SW-M12 10 m, connector angular self -adhesiv e Connection cable, 8 pole, shielded, with mating M12 connector for LAS-T/TL series Digital display 1 channel, 0...10V/4...20 ma K8P2M-S-M12 2 m, connector straight PAXP000B 1 channel, supply : 85 to 250 VAC K8P5M-S-M12 5 m, connector straight PAXP001B 1 channel, supply : 11...36 VDC/24 VAC K8P10M-S-M12 10 m, connector straight K8P2M-SW-M12 2 m, connector angular Digital display 2 channels, 0...10V/4...20 ma K8P5M-SW-M12 5 m, connector angular PAXDP00B 2 channels, supply : 85 to 250 VAC K8P10M-SW-M12 10 m, connector angular PAXDP01B 2 channels, supply : 11...36 VDC/24 VAC For f urther inf ormation please see the separate PAX data sheet General safety instructions Attention radiation laser. Do not stare into beam. Do not point the laser beam towards someone's eye. It is recommended to stop the beam by a matte object or matte metal shield. Laser regulations require the power to the sensor be switched off when turning off the whole system this sensor is part off. Subject to change without prior notice. WayCon Positionsmesstechnik GmbH email: info@waycon.de internet: www.waycon.de Head Office Mehlbeerenstr. 4 82024 Taufkirchen / Germany Tel. +49 (0)89 67 97 13-0 Fax +49 (0)89 67 97 13-250 Office Cologne / Germany Auf der Pehle 1 50321 Brühl Tel. +49 (0)2232 56 79 44 Fax +49 (0)2232 56 79 45

LASER Analog Laser Displacement Transducer Series LAR Key-Features: Content: Technical Data.2 Technical Drawing...2 Operation & Connection...3 Order Code...4 - Measurement ranges 10, 30, 70, 160, 400 mm - Repeatability up to 10 µm - Linearity up to ± 0.1% - Individual parametrization by teach-in procedure - External input setting function - Window comparator mode and Zero set function - Peak and bottom hold function - Working temperature -10 to 45 C - Protection class IP67 - Analog output 0...5 V - PNP or NPN output type 17.08.15

- 2 - TECHNICAL DATA LAR-10-5V LAR-30-5V LAR-70-5V LAR-160-5V LAR-400-5V Measurement range 25...35 mm 35...65 mm 65...135 mm 120...280 mm 200...600 mm Linearity ±0.1 % ±0.1 % ±0.1 % ±0.2 % ±0.2 %...±0.3 % Repeatability 10 µm 30 µm 70 µm 200 µm 300 µm...800 µm Beam diameter approx. 50 µm approx. 70 µm approx. 120 µm approx. 300 µm approx. 500 µm Temperature drif t 0.03 % of FS/ C Laser specif ication Red semiconductor laser Class 2 [JIS/IEC/GB/FDA (Note 2)] Max. output: 1 mw, emission peak wavelength: 655 nm Supply voltage 12...24 VDC, ±10 % Power consumption 40 ma, or less (at 24 V) / 60 ma, or less (at 12 V) Control output PNP or NPN Open-Collector Transistor Analog output 0...5 V (Alarm: +5.2 V), output impedance: 100 Ohm Response time Switchable between 1.5 ms (high speed) / 5 ms (Standard) / 10 ms (high accuracy ) Protection class IP67 Working temperature -10...+45 C (storage temperature -20...+60 C) Humidity 35 to 85 % RH, Storage: 35 to 85 % RH Ambient illuminance Incandescent lamp: Acceptance surf ace illuminance 3,000 lx or less Vibration Shock Output Housing 10 to 55 Hz (period: 1 min.) f requency, 1.5 mm amplitude in X, Y and Z directions f or two hours each 500 m/s acceleration (50 G approx.) in X, Y and Z directions f or three times each 2 5 wire cable, 2 m length Aluminum die-cast, Front cover: Acrylic TECHNICAL DRAWING LAR, all models When mounting this product, use M3 screws (no included in delivery). The tightening torque should be 0.5 Nm.

- 3 - OPERATING ELEMENTS A detailed description of the functions is given in the manual that comes with every LAR sensor. ELECTRICAL CONNECTION PNP Cable colour Function brown +V black Control output pink External input blue 0 V grey Analog output 0...5 V silv er Shield NPN output on request. ACCESSORY Mounting bracket LAR-BW When mounting this product, use M3 screws (no included in delivery). The tightening torque should be 0.5 Nm.

- 4 - ORDER CODE LAR WITH PNP OUTPUT LAR 5V Measurement range 25...35 35...65 65...135 120...280 200...600 10 30 70 160 400 NPN output on request. ACCESSORIES LAR-BW Mounting bracket General safety instructions Attention radiation laser. Do not stare into beam. Do not point the laser beam towards someone's eye. It is recommended to stop the beam by a matte object or matte metal shield. Laser regulations require the power to the sensor be switched off when turning off the whole system this sensor is part off. Subject to change without prior notice. WayCon Positionsmesstechnik GmbH email: info@waycon.de internet: www.waycon.biz Head Office Mehlbeerenstr. 4 82024 Taufkirchen Tel. +49 (0)89 67 97 13-0 Fax +49 (0)89 67 97 13-250 Office Köln Auf der Pehle 1 50321 Brühl Tel. +49 (0)2232 56 79 44 Fax +49 (0)2232 56 79 45

LASER Analog Laser Displacement Transducer LAM Series Key-Features: Content: Measuring Principle...2 Installation Instructions...3 Technical Data LAM-S...4 Technical Data LAM-F...5 Technical Drawing...6 Electrical Connection...7 Order code...9 - Available measurement ranges: 0.5 to 200 mm - Resolution up to 0.2 µm, linearity up to ±1 µm - Excellent for highly dynamic measurements - Measuring frequency up to 100 khz - Sampling rate up to 400 khz - Working temperature 0 to 50 C - LAM external evaluation electronics - Analog output 4...20 ma, -10...10 V - with Ethernet Interface 03.03.15

- 2 - OVERVIEW The optical position measuring system LAM is used in touchless measurement applications. LAM distance sensors are available in various models so as to offer the suitable sensor type for any application. Due to the high measuring frequency of up to 100 khz this series is particularly suited for highly dynamic measurements. This high resolution of up to 0.05 µm guarantees reliable use in sophisticated measurements in quality control. MEASURING PRINCIPLE The LAM laser sensors are used for touchless position, or presence measuring of objects. They utilise the triangulation method for measuring. The laser beam hits the object as a small spot and the sensor's receiver defines the position of this spot. The relation of the angles is used to calculate the distance. The possible resolution and the accuracy change with the distance d: If d is near the sensor, it causes a large change to the angle a1. If d is farther away, the change to the angle is much smaller a2 (see drawing). The middle of the measuring rang is the reference distance. A light spot is focused on the object measured. The technology uses light impulses for very low dependence on constant ambient light. The projected light spot is mapped onto a position sensor through use of a lens. Diffuse reflection of the light of the light spot is important for the measurement. Depending on the reflectance of the area measured a fine self-actuated regulating circuit automatically adjusts the light intensity of the light source. If the intensity of the reflected light is too low (min. 10% surface reflection), this will trigger error message F1: "too little light". With highly reflective surfaces reflecting the transmitting light directly into the reception optics will trigger error message F2: "too much light/reflection". Both errors are indicated by logic signals and LED displays. Analogue voltage describing the light intensity is delivered as additional information on the lighting conditions. The output voltage "Distance" on pin 1 is emitted linear to the distance of the object. In addition to signal output ±10 V the output signals 4...20 ma and an Ethernet interface are available (optional 0...10 V, 0...5 V, ±5 V). Two comparators can be used to adjust the limits for the object distance measured. Thus the ranges too close, OK or too far are defined. The respective range can be identified by the LED display.. Blind range a1 Measurement range a2 d d Self test Permanent monitoring of the reflected light tests if an object is within the measuring ranges and the intensity of the reflected light is adequate. Response time and frequency response The rise time of the analog output is particularly fast in laser sensors. On the LAM-N it is ca. 100 μs, 50 μs for the LAM-S and 5 μs for the LAM-F for rising to > 90% of the end value. The cutoff frequency of the low pass filter can be adjusted with dip switches (under the cover in the lid of the electronics unit). The internal sampling rate of the sensor is not impacted by the dip switch settings. The filter frequencies specified on pages 9 and 10 correspond to the 3 db bandwidth of the low pass filter. Higher frequencies and noise are reduced more and more, thus increasing the measuring accuracy. Example: Set to 2.5 khz a recorded oscillation of a frequency of 2 khz is transmitted without considerable reduction. A frequency of 10 khz, however, would be severely reduced. Sensor head installation To achieve absolutely accurate distance measurements, the light measuring beam must be aligned square to the measuring surface. Any tipping will geometrically cause a greater measured displacement. When installing the laser measuring head be sure the laser light beam can neither directly nor indirectly (e.g. through reflection) hit the human eye. The laser warning decal must be applied to the sensor where it is clearly visible. To adjust, use the MIN, OK and MAX LEDs. At delivery the MIN and MAX values are set to the limits of the measuring range. Whilst the OK LED is lit the object is within the measuring range and reflecting adequate light.

- 3 - INFORMATION Surface measurement error Surface-related measurement errors impacted by material and colour Any materials, e.g. metal, plastic, ceramics, rubber and paper, can be measuring objects. Use only needs to be reviewed on an individual basis with highly reflective surfaces or liquids. Surface reflectance The sensor requires a minimum of 10% surface reflection to function properly. Only diffuse reflection can be used for measurement. Lateral flare When projecting the light spot slight flare also occurs, which is reflected laterally by the measuring point, and then reaches the receiver. Highly reflective parts within the flare area close to the measuring point reflecting the flare directly to the receiver can result in measurement errors. Homogeneously scattering objects with the same level of reflectance do not cause this error. If the reflecting range is outside of the measuring point the errors can in worst case be 2%. Beam entering the measured material With slightly transparent plastics or cloudy liquids the measuring beam penetrates the medium to a certain level before the diffusely reflected light is reflected. Here the true measuring plane must be expanded by the penetration depth. In individual cases this can only be determined experimentally. Striped objects If the measuring objects have light/dark stripes, e.g. wood, the sensor must be mounted with the optical axis parallel to the direction of the stripe (see drawing right). The LAM lasers with its small measuring points are ideally suited for this. Light/ dark change within the measuring point If a distance is measured at a point where the material transitions from a diffusely reflecting to a reflective material, hence has a strong change in the reflection factor, measurement errors can result. Based on the surface, here the maximum of the light intensity is not at the centre of the measuring point. However, if the line of the transition is in the direction of the optical axis, the error is minimal. Change of the surface reflection factor during measurement The LAM sensor features an automatic light intensity adjustment to adjust to well or low reflecting objects. If the surface reflection changes during the measurement it automatically readjusts accordingly. Angle dependency of measurements If the sensor is not square to the object surface the measurement has low angle dependency. On matt surfaces with high diffuse reflection the angle dependency is low, with reflective surfaces it is higher. The object's angles of rotation around the x-axis can be reached up to ±30 without considerable measurement error, around the y-axis up to ±15. The measurement error shows to be a change between the output voltage / distance relation. If the angle is constant it can be eliminated through readjustment.

- 4 - TECHNICAL DATA SERIES LAM-S for dynamic measurements low noise measuring frequency up to 10 khz sample rate 54 khz Ethernet interface LAM-S-0,5 LAM-S-2 LAM-S-4 LAM-S-10 LAM-S-20 LAM-S-50 LAM-S-100 LAM-S-200 Measuring range 23,75...24,25 23...25 22...26 40...50 55...75 115...165 170...270 240...440 Cutoff frequency CF adjustable: 20 Hz...10 khz, (-3 db) please see page 10 for DIP switch settings and corresponding cutoff frequencies Resolution at CF 10 khz [µm] 0.3 1.3 2.6 6.5 13.0 32.5 65.0 200.0 Resolution at CF 20 Hz [µm] 0.02 0.10 0.20 0.50 1.00 2.50 6.00 20.00 Linearity error [µm] ±1 ±4 ±8 ±20 ±40 ±100 ±200 ±400 Sampling rate [khz] 54 (at the output of the electronics) Analog output ±10 V, 4...20 ma, (optional: ±5 V, 0...20 ma, 0...10 V, 0...5 V) Output impedance [Ω] approximately 0 (10 ma max.) Temperature drift [%/ K] 0.02 Light intensity [VDC] 0...10: Signal quality: <3 = risk of underexposure, ~5 = excellent, >8 = risk of overexposure Digital output Ethernet TCP / IP Max. extraneous light [Lux] 20000,00 Light source Red pulsed laser diode, wavelength 650...670 nm Laser class 2,00 Isolation voltage [VDC] Sensor head IP64, electronics IP40 Permissible vibration 5 g bis 1 khz (20 g optional) Housing material Aluminium Protection class Sensor head IP64. electronics IP40 Operating temperature [ C] 0...50 Beam shape Spot laser, ø 0.1 0.2 0.3 0.6 0.9 1.5 1.5 2.0 Output signal ±10 V, 4...20 ma, Ethernet, (optional: ±5 V, 0...20 ma, 0...10 V, 0...5V) Supply 24 VDC / 250 ma (10...30 VDC) External electronics included Note: Specifications on linearity and resolution refer to measuring a matt, white reference surface. RESOLUTION AS FUNCTION OF FILTERSETTINGS Sensor-Type: LAM-S-10, measurement range 10 mm. The measurement was recorded with an analog oscilloscope Measurement on a white target Measurement on a black target LAM-S-10 Noise * Resolution LAM-S-10 Noise * Resolution 10.000 Hz 13 mv 6.5 µm 10.000 Hz 200 mv 100 µm 7000 Hz 12 mv 6.0 µm 7000 Hz 180 mv 90 µm 4000 Hz 8 mv 4.0 µm 4000 Hz 150 mv 75 µm 1000 Hz 6 mv 3.0 µm 1000 Hz 100 mv 50 µm 250 Hz 3 mv 1.5 µm 250 Hz 60 mv 30 µm 100 Hz 2 mv 1.0 µm 100 Hz 40 mv 20 µm 25 Hz 1.5 mv 0.7 µm 25 Hz 20 mv 10 µm 20 Hz 1.0 mv 0.5 µm 20 Hz 15 mv 7.5 µm * measured at analog output 10 V = 10 mm

- 5 - TECHNICAL DATA SERIES LAM-F for highly dynamic measurements measuring frequency up to 100 khz Sample rate 400 khz Ethernet interface LAM-F-0,5 LAM-F-2 LAM-F-4 LAM-F-10 LAM-F-20 LAM-F-50 LAM-F-100 LAM-F-200 Measuring range 23.75...24.25 23...25 22...26 40...50 55...75 115...165 170...270 240...440 Cutoff frequency CF adjustable: 230 Hz...100 khz, (-3 db) please see page 9 for DIP switch settings and corresponding cutoff frequencies Resolution at CF 100 khz [µm] 0.8 3.5 7.0 17.5 35.0 50.0 100.0 330.0 Resolution at CF 230 Hz [µm] 0.05 0.2 0.4 1.0 2.0 7.5 15.0 50.0 Linearity error [µm] ±1.5 ±6 ±12 ±30 ±60 ±150 ±300 ±600 Sampling rate [khz] 400 (at the output of the electronics) Analog output Output impedance [Ω] ±10 V, 4...20 ma, (optional: ±5 V, 0...20 ma, 0...10 V, 0...5V) approximately 0 (10 ma max.) Temperature drift [%/ K] 0,02 Light intensity output [VDC] 0...10: Signal quality: <3 = risk of underexposure, ~5 = excellent, >8 = risk of overexposure Digital output Ethernet TCP / IP Max. extraneous light [Lux] 20000,00 Light source red pulsed laser diode, wavelength 650...670 nm Laser class 2,00 Isolation voltage [VDC] 200 (0 V against housing) Permissible Vibration Housing material Protection class 5 g bis 1 khz (20 g optional) Aluminium Sensor head IP64, electronics IP40 Operating temperature [ C] 0...50 Beam shape Spot laser, ø Output signal Supply External electronics 0.1 0.2 0.3 0.6 0.9 1.5 1.5 2.0 ±10 V, 4...20 ma, Ethernet, (optional: ±5 V, 0...20 ma, 0...10 V, 0...5V) 24 VDC / 250 ma (10...30 VDC) included Note: Specifications on linearity and resolution refer to measuring a matt, white reference surface. RESOLUTION AS FUNCTION OF FILTERSETTINGS The measurement was done on a white target and recorded with an analog oscilloscope LAM-F-4 Noise Resolution LAM-F-0,5 Noise Resolution 100000 Hz 32 mv 6.4 µm 100000 Hz 30 mv 0.75 µm 70000 Hz 30 mv 6.0 µm 70000 Hz 27 mv 0.68 µm 40000 Hz 22 mv 4.4 µm 40000 Hz 22 mv 0.55 µm 10000 Hz 12 mv 2.4 µm 10000 Hz 12 mv 0.30 µm 2500 Hz 8 mv 1.6 µm 2500 Hz 8 mv 0.20 µm 1000 Hz 5 mv 1.0 µm 1000 Hz 5 mv 0.13 µm 250 Hz 3 mv 0.5 µm 250 Hz 4 mv 0.10 µm 230 Hz 2 mv 0.4 µm 230 Hz 4 mv 0.10 µm

- 6 - TECHNICAL DRAWING LAM-S, LAM-F LAM-S-0,5 LAM-F-0,5 LAM-S-2 / LAM-S-4 LAM-F-2 / LAM-F-4 LAM-S-10 LAM-F-10 LAM-S-20 LAM-F-20 LAM-S-50 / LAM-S-100 / LAM-S-200 LAM-F-50 / LAM-F-100 / LAM-F-200 Type x 50 26,6 100 25,8 200 27,5 Electronics housing LAM-S / LAM-F

- 7 PIN ASSIGNMENT / DIP SWITCH SETTINGS LAM-S, LAM-F Assignment SUB-D connector, 25-pin PIN Function Colour 1 Distance output ±10 V (0...10 V, ±5 V, 0...5 V)* white 2 Error+24 V/ 10 ma red 3 Sync signal output 5 Digital output OK 0/ 24 V pink 6 Distance output 4...20 ma (0...20 ma)* blue 8 Mass 0 V yellow 14 Analogue Mass 0 V brown 15 Sync signal input 16 Digital output MAX, 0/ 24 V purple 17 Distance input 0...5V 18 Mass 19 Digital output MIN, 0/ 24 V black 20 Light intensity output 0...10 V grey 21 +24 V supply green Housing EMV screen Electronics LED Status LED Function Color operating Power Power ok green lights up Link Ethernet Link operating yellow lights up 10 Ethernet Link activity yellow flashing rapidly MAX maximum threshold red lights up OK object within range green lights up MIN minimum threshold red lights up Error FPGA self test ok red off object out of range red lights up *optional LAM-S Dip switch / filter settings Frequency S1 S2 S3 S4 S5 S6 10 khz - - - - - - 7 khz X - - - - - 4 khz - X - - - - 1 khz - X X - - - 250 Hz - - - X - - 100 Hz - - - - X - 25 Hz - - X X - X 20 Hz X X X X X X X = switch closed - = switch open Factory setting: S1 + S2 closed LAM-F Dip switch / filter settings Frequency S1 S2 S3 S4 S5 S6 100 khz - - - - - - 70 khz X - - - - - 40 khz X X - - - - 10 khz - X X - - - 2,5 khz - - - X - - 1 khz - - - - X - 250 Hz - - - - X X 230 Hz X X X X X X X = switch closed - = switch open Factory setting: S1 + S2 closed The Dip switch (under the cover inside the lid for the electronics unit) is used to adjust the frequency of the low pass filter. Switch 1 is on the left, switch 6 on the right. Never change the potentiometers. The internal sampling rate of the sensor is not impacted by the Dip Switch settings. The filter frequencies specified correspond with the 3 db bandwidth of the low pass filter. Higher frequencies and noise are reduced more and more. Example: Set to 2.5 khz a recorded oscillation of a frequency of 2 khz is transmitted without considerable reduction. A frequency of 10 khz, however, would be severely reduced.

- 8 - ETHERNET CABLE PIN ASSIGNMENTS, RJ45, CROSSED PIN Signal Plug A PIN Signal Plug B, crossed 1 Transmitted data + green + white 1 Date received + red + white 2 Transmitted data - green + white 2 Date received - red 3 Date received + red + white 3 Transmitted data + green + white 4 not used - blue 4 not used - blue 5 not used + blue + white 5 not used + blue + white 6 Date received - red + white 6 Transmitted data - green 7 not used + brown + white 7 not used + brown + white 8 not used - brown 8 not used - brown Hint: direct connection between sensor and network card requires a cross Ethernet cable. If an Ethernet switch is interconnected, Ethernet cables assigned 1:1 can be used. If the Ethernet switch automatically recognises the line polarity due to its "Autosense + AutoMDI" function it doesn't matter if the cables used are assigned 1:1 or crossed. INCLUDED IN DELIVERY SERIES LAM Sensor with 2 m sensor cable External electronics 25 pin SUB-D plug, solderable Test log

- 9 - ORDER CODE LAM 10 khz measuring frequency, Ethernet, 2 m cable 100 khz measuring frequency, Ethernet, 2 m cable S F - O Version Standard Sensor with additional options Measurement Range 0.5, 2, 4, 10, 20, 50, 100, 200 mm e.g. 10 Standard: all models with analog output ±10 V and 4...20 ma LAM-10V LAM-5V5V LAM-5V LAM-20A LAM-HD LAM-3R LAM-IF Options Output signal 0...10 V Output signal ±5 V Output signal 0...5 V Output signal 0...20 ma Vibration protection, 20 g Increased laser power Interference filter OPTIONS AND ACCESSORIES Accessories Options LAM-AG Protective glass replacement (2 pieces) LAM-10V Signal output 0...10 V LAM-KUEHL Heat sink, attaches to sensor from outside (only on request) LAM-5V5V Signal output ±5 V LAM-5V Signal output 0...5 V LAM-20A Signal output 0...20 ma LAM-HD Sensor head vibration protection: 20 g / 1 khz LAM-3R Increased laser power LAM-IF Interference filter General safety instructions Attention radiation laser. Do not stare into beam. Do not point the laser beam towards someone's eye. It is recommended to stop the beam by a matte object or matte metal shield. Laser regulations require the power to the sensor be switched off when turning off the whole system this sensor is part off. Subject to change without prior notice. WayCon Positionsmesstechnik GmbH email: info@waycon.de internet: www.waycon.de Head Office Mehlbeerenstr. 4 82024 Taufkirchen Tel. +49 (0)89 67 97 13-0 Fax +49 (0)89 67 97 13-250 Office Cologne Auf der Pehle 1 50321 Brühl Tel. +49 (0)2232 56 79 44 Fax +49 (0)2232 56 79 45

LASER Analog Laser Displacement Transducer Series LAV Key-Features: Content Measurement Principle & Installation...2 Technical Data...3 Electrical Connection.3 Technical Drawing...4 Teach-In...5 Order Code...6 - Measurement ranges 0.2 to 8.0 and 0.2 to 50.0 m - Absolute accuracy ±25 mm - Repeatability <5 mm - Response time 10 ms - Individual parametrization by teach-in procedure - Protection class IP65 - Working temperature -30 to 50 C - Analog output 4..20 ma and switching output - IO-Link Interface 18.02.16

- 2 - INTRODUCTION LAV laser sensors cover measurement ranges from 0.2 to 50.0 m. The integrated micro-controller delivers an accurate output signal, which is proportional to the detected distance. External analysers to evaluate the signals are not required. Reliable operation, independent of colour or other influences of the surface, is ensured by sophisticated electronic elements integrated in the system. The small visible laser spot allows a simple and precise orientation of the sensor. MEASURING PRINCIPLE A powerful light source emits short, high-energy pulses, which are reflected by the target object and then recaptured by a light-sensitive receiver. During this process, the emission and reception times are detected with a high degree of precision. From the values determined, the distance to the target object is calculated using the runtime of the light pulses. If the target object is close, the light propagation time is short. If the object is further away, the light propagation time is longer. GENERAL NOTES Teach-in function The desired range can conveniently be adapted within the maximum measurement range by means of the teach-in button. The analog output has its full stroke within the teached range. The default configuration uses the maximum measurement range. A description of the teach-in procedure can be found on page 5 of this data sheet. Installation The first condition for a successful distance measurement is the absence of any obstruction in the light path, as shown in fig. 3. The receiver optics must be able to detect the light spot directly (fig. 1 and 2). For highly polished or mirror-like objects it is important to keep the direct reflection away from the detector. In these cases, it is recommended to slightly tilt the sensor (fig. 4). Optimum results are obtained by transverse installation of the sensor with respect to the target movement (fig. 5). (1) (2) (3) (4) (5) WRONG Electromagnetic compatibility: The sensor must correctly be grounded, a shielded cable is recommended. Cleaning of the laser window 1) dry cleaning with a soft brush 2) cleaning with a dry, soft, antistatic cloth 3) wet cleaning with clear water, approx. 30 degree Celsius, if necessary with a little mild soap. Please do NOT use window cleaner!!

- 3 - TECHNICAL DATA LAV-8-420-IO LAV-50-420-IO Measurement range (see page 4) [m] 0.2...8.0 (target: white 90%) * 0.2...50.0 (with target board) Absolute accuracy ±25 ±25 Repeatability <5 <5 Beam divergence [mrad] 1 1 Pulse length [ns] 5 5 Repetition rate laser [khz] 250 250 Angle deviation [ ] max. ±2 max. ±2 Laser class 2 2 Diameter of light spot <10 at a distance of 8 m at 20 C <50 at a distance of 50 m at 20 C Ambient light limit [Lux] 50000 50000 Temperature inf luence [mm/k] ty p. 0.25 ty p. 0.25 MTTF [a] 200 200 Mission time (T M ) [a] 10 10 Operating voltage [VDC] 10...30 VDC / when operating in IO-Link mode: 18...30 V 10...30 VDC / when operating in IO-Link mode: 18...30 V Ripple 10% within the supply tolerance 10% within the supply tolerance No-load supply current 70 ma / 24 VDC 70 ma / 24 VDC Time delay bef ore availability [s] 2 2 Operating temperature [ C] -30...50-30...50 Protection class IP65 IP65 Interf ace IO-Link (V1.0) IO-Link (V1.0) Signal output Push-pull Push-pull Switching voltage [VDC] 30 30 Switching current [ma] 100 100 Measurement output 4...20 ma 4...20 ma Switching f requency [Hz] 50 50 Response time output [ms] 10 10 Connection 4-pin, M12 x 1 connector (cable output on request) 4-pin, M12 x 1 connector (cable output on request) Housing material Plastics ABS Plastics ABS Weight [g] 90 90 EMC EMC Directiv e 2004/108/EC EMC Directive 2004/108/EC UL approval culus Listed, Class 2 Power Source, Type 1 enclosure culus Listed, Class 2 Power Source, Type 1 enclosure * gray taget (18%) : range approx. 3.5 m / black target (10%): range approx. 2.5 m ELECTRICAL CONNECTION Electrical connection LAV Q1: Switching output (push-pull) Setting the switching threshold A and B see page 5 Light on: switches to 0 V Dark on: switches to +UB Q2: Analog output 4...20 ma Setting the minimum and maximum values A and B see page 5 C: Data line IO-Link

- 4 - TECHNICAL DRAWING INDICATORS 1 Operating displays green 4 Mode rotary switch 2 Signal display yellow 5 Laser output 3 Teach-In button Mode rotary switch: Q1: switching output (push-pull) Setting the switching threshold A and B see page 5 Q2: Analog output 4...20 ma Setting the minimum and maximum values A and B see page 5 MEASUREMENT RANGE LAV-8-420-IO Reference object: Kodak white (90%) LAV-50-420-IO Reference object: target board ZT51_WEISS (accessory) In case of a measurement without target board the measurement range will decrease depending on the objects colour and its distance to the laser sensor. We highly recommend to use the target board ZT51_WEISS.

- 5 - TEACH-IN GUIDE Switching output Q1: You can use the rotary switch to select the relevant switching threshold A and/or B for teaching in for switching output Q1. The yellow LEDs indicate the current state of the selected output. To store a switching threshold (distance measured value), press and hold the "SET" button until the yellow and green LEDs flash in phase (approx. 2 s). Teach-In starts when the "SET" button is released. Successful Teach-In is indicated by alternating flashing (2.5 Hz) of the yellow and green LEDs. An unsuccessful Teach-In is indicated by rapidly alternating flashing (8 Hz) of the yellow and green LEDs. After an unsuccessful Teach-In, the sensor continues to operate with the previous valid setting after the relevant visual fault signal is issued. Different switching modes can be defined by teaching in the relevant distance measured values for the switching thresholds A and B: (see diagram on the right). Every taught-in switching threshold can be retaught (overwritten) by pressing the SET button again. Pressing and holding the "SET" button for > 5 s completely deletes the taught-in value. The yellow and green LEDs go out simultaneously to indicate that this procedure has been completed. A empty B empty A >B B >A Analog output Q2: Minimum and maximum values for the analog output Q2 are taught in in the same way as those for the switching output: The following values apply: A = 4 ma B = 20 ma This provides three different options for operation: Reset to default settings: Factory setting for switching output Q1: Switching output inactive Factory setting for analog output Q2: A = 200 mm B = 5000 mm Value B cannot be deleted The "zero start point" operating mode can be obtained by deleting value A - Set the rotary switch to the "RUN" position - Press and hold the "SET" button until the yellow and green LEDs stop flashing in phase (approx. 10 s) - When the green LED lights up continuously, the procedure is complete. Note! The difference in the taught-in distance measured values for switching thresholds A and B must be greater than 20 mm. If the difference in the taught-in measured values is the same as or smaller than the set switching hysteresis, the sensor will visually signal an unsuccessful Teach-In. The last distance measured value that was taught in will not be adopted by the sensor. Select a new distance measured value for switching threshold A or B with a greater difference between the switching thresholds. Teach in this distance measured value on the sensor again. Switching threshold A can be deleted or set to a value of zero. (E.g., when setting the "zero start point" curve). However, switching threshold B can neither be deleted nor set to a value of zero.

- 6 - ORDER CODE LAV-8-420-IO LAV-50-420-IO Range 0.2...8.0 m Range 0.2...50.0 m ACCESSORIES Cable with mating connector M12, 4 poles, shielded, IP67 Digital display 1 channel, 0...10V/4...20 ma K4P2M-S-M12 2 m, straight connector PAXP000B 1 channel, supply : 85 to 250 VAC K4P5M-S-M12 5 m, straight connector PAXP001B 1 channel, supply : 11...36 VDC/24 VAC K4P10M-S-M12 10 m, straight connector K4P2M-SW-M12 2 m, angular connector Digital display 2 channels, 0...10V/4...20 ma K4P5M-SW-M12 5 m, angular connector PAXDP00B 2 channels, supply : 85 to 250 VAC K4P10M-SW-M12 10 m, angular connector PAXDP01B 2 channels, supply : 11...36 VDC/24 VAC For f urther inf ormation please see the separate PAX data sheet Mating Connector M12, 4 poles, shielded, IP67 D4-G-M12-S D4-W-M12-S straight, M12 for self assembly angular, M12 for self assembly Target board ZT100 f or LAV General safety instructions Attention radiation laser. Do not stare into beam. Do not point the laser beam towards someone's eye. It is recommended to stop the beam by a matte object or matte metal shield. Laser regulations require the power to the sensor be switched off when turning off the whole system this sensor is part off. Subject to change without prior notice. WayCon Positionsmesstechnik GmbH email: info@waycon.de internet: www.waycon.de Head Office Mehlbeerenstr. 4 82024 Taufkirchen Tel. +49 (0)89 67 97 13-0 Fax +49 (0)89 67 97 13-250 Office Köln Auf der Pehle 1 50321 Brühl Tel. +49 (0)2232 56 79 44 Fax +49 (0)2232 56 79 45

LASER Laser-Position-Transducer LLD Series Key-Features: Content: Technical Data.2 Technical Drawings...2 Types Of Output...3 Configuration Software...4 Order Code...5 Options & Accessories.5 - Measurement range: 0.1 to 150 m - Resolution: 0.1 mm - Repeatability: ±0.5 mm - Linearity: ±2 mm on white surfaces, ±3 mm on natural surfaces - Protection class: IP65 - Working temperature: -10 to 50 C, with heating: -40 to 50 C - Measuring frequency selectable: 10Hz or 50Hz - Analog output: 4..20mA (must be configured with the included software) - Digital outputs: RS232, RS422, Profibus, SSI 11.11.15

- 2 - TECHNICAL DATA Measurement range Resolution 0.1...30 m on all natural diffuse reflecting surfaces, on target board up to 150 m 0.1 mm Linearity ±2 mm on white surfaces (+15...+30 C), ±3 mm on natural surfaces (+15...+30 C), ±5 mm (-10...+50 C) Repeatability Selectable measuring frequency 0.5 mm 10 Hz or 50 Hz Measuring rate 0.16...6 s (10 Hz), 0.02 s (50 Hz) Supply voltage 10...30 VDC Max. power consumption 1.5 W, Profibus: 3.2 W Max. power consumption, option H 24 W (24 VDC), Profibus, SSI: 25.7 W (24 VDC) Analog output Digital Output 4...20 ma ( parameterise using RS232/ RS422), load 500 Ohm RS232, RS422, Profibus, SSI Transfer rate Switching outputs Trigger input * 2,4 / 4,8 / 9,6 / 19,2 / 38,4 kbaud for RS232 and RS422, max. 12 MBaud for Profibus, 50...1000 khz for SSI 1 (max. capacity load 0.5 A), Profibus, SSI: 2 (max. capacity load 0.5 A) trigger impulse 24 V Connection 12-pole M16-connector; for Profibus, SSI in addition: 5-pole M12-connector (male) and M12-connector (female) Light source laser diode (red), wavelength 650 nm Laser class Protection class 2, 1 mw IP65 Storage temperature -40...+70 C Working temperature -10...+50 C Working temperature, option H -40...+50 C, by heating Weight 760 g, Profibus, SSI: 770 g Electromagnetic compatibility (EMC) EN 61326-1 * not available for models with option H (heating) TECHNICAL DRAWINGS LLD-150-RS232, LLD-150-RS422 LLD-150-Profibus

- 3 - GETTING STARTED For initial operation, the sensor has to be set into operation mode, i.e. the autostart function must be configured. This function decides on the mode generally to be activated after switching on. Single point and continuous measurement (distance tracking) in different modes are available. Before using the analog output, the measurement range must be scaled: 4 ma is assigned to the minimum, 20 ma to the maximum measurement range. All these settings are quickly performed by means of the WayCon configuration software included in the delivery. DIFFERENT TYPES OF OUPUT Analog output 4...20 ma The analog output allows for transmission of the results by an analog 4...20 ma signal. The current of the line is proportional to the detected distance. The measurement range must be scaled during initial operation. Connector 12-pole, M16 RS232 output This classical low-price interface for short distances between sensor and PC/control-system/display is ideally suited to laboratory and PC applications. Data rate 38.4 kbaud max. Connector 12-pole, M16 RS422 output Differential interface with RS232 protocol, i.e. the data is transmitted by RS232, just that RXD and TXD are transmitted differential on RS422 basis. Optimized for environment with background noise and long lines (up to 100 m). Since standard PC's generally do not offer an RS422 interface, this type of communication requires an RS422 interface card or a converter RS422-to- RS232. Data rate 38.4 kbaud max. Connector 12pole, M16 Profibus output Plug-and-play interface for fieldbus applications. Configuration by Profibus firmware data file (gsd file), available at www.waycon.de Data rate 12 Mbaud max. Connector: 1x 12-pole, M16, 2x 5-pole M12 SSI output Synchronous interface for industrial applications. 24 bit, Gray-coded, 1 MHz max. Connector: 1x 12-pole, M16, 2x 5-pole M12 Digital switching output This output allows for supervision of the targets, e.g. with respect to the excess of preset thresholds. A corresponding measurement window must be parametrized beforehand, which determines the beginning and the end of the monitored range. The desired switching point can be set inside this range. The details are discussed in a separate manual included in the delivery. Trigger input (not for models with heating) A distance measurement can also externally be initiated by a signal (voltage pulse 3..24 V), transmitted via trigger input. The user has to configure the desired delay as well as the pulse edge for triggering. All details are described in the manual included in the delivery. INCLUDED IN DELIVERY LLD sensor Manual WayCon CD with LLD-configuration software LLD-communication & data acquisition

- 4 - CONFIGURATION-SOFTWARE Before starting to work with the LLD-Sensor, the user has to select the operational mode, either via a terminal program like Hyperterminal (WinXP), normally included in a Win32 operating system, or by performing the configuration by means of the conveniently designed user interface of the WayCon software, available in English language. The latter choice uses the serial interface and is therefore possible only for the RS232 or RS422 LLD-Laser sensors, (not for the Profibus, SSI version). Please be aware that normal PC's and Laptops do not have a RS422 interface and hence a RS422/RS232 converter is required. When establishing the connection, the distance between converter and PC (RS232 line) should be kept as short as possible. The possibly long and EMI (electromagnetic interference) loaded distance between converter and LLD-sensor thus represents the RS422 line. The parameters shown in the graphic user interface correspond to the parameters described in the manual of the sensor. For stand-alone operation (i.e. without connection to a PC or a PLC), essential parameters are Autostart and Analog Range Begin/End, used to configure the sensor for instantaneous automatic selection of the measurement mode after switching on. The WayCon Configuration Software furthermore offers the possibility to save measured distances in ASCII format by means of a data logger. CONFIGURATION-SOFTWARE As described above the LLD-Sensor has to be switched into the operational mode, before measurements can be made. WayCon offers the possibility for the RS232- and RS422-based laser sensors to make a pre-configuration. In this case the desired measurement range is required, e.g. 5 m measurement range begin, 25 m measurement range end. After this configuration by WayCon 4 ma will be the output at the measurement range begin and 20 ma at the measurement range end. The laser sensor can then be used right after unpacking, without any additional adjustments.

- 5 - ORDER CODE LLD-150 Interface RS232 RS422 RS232 RS422 H Heating (optional) Measurement frequency - 50 10 Hz 50 Hz LLD-150 Interface Profibus, SSI PROF H Heating (optional) OPTIONS AND ACCESSORIES Accessories RS232 / RS422 Accessories Profibus KAB-LLD-2M Interface cable 2 m KAB-LLD500-2M-S KAB-LLD-5M Interface cable 5 m KAB-LLD500-5M-S KAB-LLD-10M Interface cable 10 m KAB-LLD500-10M-S LLD Aktivierung Pre-configuration by WayCon for RS232, RS422 models 94133 94136 Option for all models 94145 H Heating K5P2M-B-M12-PROF K5P2M-SB-M12-PROF K5P2M-B-M12-PROF Target Board (for measurement distances 30 m and greater) K5P5M-B-M12-PROF ZT51_WEISS Target board for Laser Type LLD K5P5M-SB-M12-PROF K5P5M-S-M12-PROF K5P10M-B-M12-PROF K5P10M-SB-M12-PROF K5P10M-S-M12-PROF Interface cable 2 m, supply Interface cable 5 m, supply Interface cable 10 m, supply Profibus OUT M12 connector, male Profibus IN M12 connector, female Profibus M12 terminating resistance Cable 2 m, female connector 5-pol. M12, open ends Cable 2 m, female 5-pol. M12, male 5-pol. M12 Cable 2 m, male connector 5-pol. M12, open ends Cable 5 m, female connector 5-pol. M12, open ends Cable 5 m, female 5-pol. M12, male 5-pol. M12 Cable 5 m, male connector 5-pol. M12, open ends Cable 10 m, female connector 5-pol. M12, open ends Cable 10 m, female 5-pol. M12, male 5-pol. M12 Cable 10 m, male connector 5-pol. M12, open ends General safety instructions Attention radiation laser. Do not stare into beam. Do not point the laser beam towards someone's eye. It is recommended to stop the beam by a matte object or matte metal shield. Laser regulations require the power to the sensor be switched off when turning off the whole system this sensor is part off. Subject to change without prior notice. WayCon Positionsmesstechnik GmbH email: info@waycon.de internet: www.waycon.de Head Office Mehlbeerenstr. 4 82024 Taufkirchen Tel. +49 (0)89 67 97 13-0 Fax +49 (0)89 67 97 13-250 Office Köln Auf der Pehle 1 50321 Brühl Tel. +49 (0)2232 56 79 44 Fax +49 (0)2232 56 79 45

LASER Laser Displacement Sensor Series LLD-500 Key-Features: Content: Technical Data.2 Technical drawing...2 Types of output & Operation...3 Order code & Accessories...5 - Measuring on hot surfaces and in bright environments - Measurement range 0.1 to 500.0 m - Measured value resolution: ± 0.1 mm, - Accuracy: ± 1.0 mm (at 20 Hz) - Switching output - Protection class IP67 - Working temperature -10 to 60 C, -40 C (option H) - Maximum measuring frequency: 100 Hz (adjustable) - Analog output 4...20 ma - available digital outputs RS232, RS422, RS485, SSI and Profibus 11.11.15

- 2 - TECHNICAL DATA Measurement range * Resolution 0.15...100 m on natural, dif f use ref lecting surf aces (on target board 3M 3279 special up to 500 m) ±0.1 mm Measurement accuracy ** ±1 mm at measurement f requency <20 Hz, 2.5 mm at measurement frequency >20Hz Measurement time minimum 10 ms Measurement f requency adjustable up to 100 Hz Power supply 10...30 VDC Power consumption <10 W Power consumption Option H (with heating) <42 W (at 24 V) Analog output (parameterise using RS232) 4...20 ma, error handling with 3 ma/21 ma, total output error f or 20 ma: +15% at a temperature of 25 C Digital interf aces RS232, RS422, RS485, SSI and Prof ibus Transf er rate Prof ibus: 9.6 kbaud...12 MBaud, SSI: 200, 250, 300 khz Switching output 3x High side, load up to 0.2 A Trigger 1 x trigger in/out, 3...30 VDC Connection *** 1 x 12-pole M16, 2 x 5-pole M12 B-coded, 1 x 5-pole M12 A-coded Wavelength 635 nm Laser class 2 Laser spot in 10 m distance 4 mm x 5 mm Protection class IP67, f or outdoor applications and dif f icult environmental conditions an additional housing/protection is recommended Storage temperature -40...+70 C Working temperature -10...+60 C Working temperature, Option H(with heating) -40...+60 C Humidity 15%...90%, no condensation EMC EN 61326-1 Weight *** approx. 700 g * Measurement range depending on measuring f requency, target ref lectivity, stray light and environmental conditions ** depending on target ref lectivity, stray light and environmental conditions *** depending on device type / conf iguration TECHNICAL DRAWING LLD-500 This technical drawing shows all connector and interface options that are available for the LLD-500 product series. The LLD-500 can be screwed on using 3 (underside) or 2 M6 fastening screws respectively (length to be chosen depending on the counter piece). 3 M6 fastening screws plus washers and washer springs are included in the scope of delivery.

- 3 - DIRECT CONTROLLING The LLD-500 can directly be parameterized and set for measurements without an additional PC. Precondition is that it is supplied with voltage through the interface cable. The LLD-500 is ready for operation when the green STATUS LED is lit. The individual menu items can be selected using 4 membrane keys, each 2 above and 2 below the OLED display. The user language is English. The display can be deactivated during the measurement. It can be switched on again by pressing key T3 or T4. ELECTRICAL CONNECTION - The shield of the device cable is to be connected to the shield connector of the equipment, e.g. PLC. - Inverse polarity protection is provided. - Over-voltage protection is provided up to a maximum of 30 V DC. SERIAL INTERFACE RS232 The serial interface RS232 can be used for - Measured data transmission - LLD500 parameterization: by using the serial interface or the display. Precondition for programming via serial interface is a connection provided by a terminal program (e.g. HyperTerminal).

- 4 - SERIAL INTERFACES RS422, RS485 RS422 RS485 SWITCHING OUTPUT The switching outputs Q1, Q2 and Q3 show distance information as logic switching information. They signalize when values are above or below a preset switching range subject to hysteresis. Hence, they are perfectly suitable for the direct further processing of monitoring variables such as filling level or object detection. Parameterization is done via the serial interface. A load resistance of > 150 Ohms/ 6 W (30 V max. operating voltage: 0.2 A max. load current) must be switched against GND power at the switching output. It is essential that the load current of 0.2 A is not exceeded. You will find a detailed description of the settings in the manual. TRIGGER INPUT The LLD-500 Trigger can be used as input or output. 1) Trigger input / external trigger function: External trigger signal will be sent start of measurement DM in accordance with parameter TRI. 2) Trigger output / e.g. connection between 2 LLD-500: The output trigger signal of the 1. LLD-500 (parameterized with TRO) starts a single measurement DM of the second LLD-500 (parameterized with TRO). You will find a detailed description of the settings in the manual. LASER BEAM IMAGE The laser beam of the LLD-500 has a divergence of 0.13 mrad x 0.17 mrad (width x height). The diameter of the laser spot on the exit lens measures 4 mm. The table below shows the size of the laser spot in dependence on the distance. The laser spot has an elliptical shape. Distance Laser spot width Laser spot height 1 m 5 mm 5 mm 5 m 3 mm 3 mm 10 m 4 mm 5 mm 50 m 6 mm 7 mm 100 m 26 mm 34 mm 200 m 52 mm 68 mm 400 m 104 mm 134 mm 500 m 130 mm 170 mm The above-mentioned laser spot holds approx. 50 % of the entire laser energy. An aura with less energy forms around that spot.

- 5 - ORDER CODE LLD-500 Interface RS232, RS422, RS485 RS232, RS422, RS485, SSI RS232, RS422, RS485, Profibus RS232, RS422, RS485, SSI, Profibus RS SSI PROF SSIPRO - H no heating with heating CABLES AND ACCESSORIES Cable LLD-500 Cable LLD-500-PROF KAB-LLD500-2M-S Interf ace cable 2 m, straight connector K5P2M-B-M12-PROF Cable 2 m, female connector 5-pol. M12, open ends KAB-LLD500-5M-S Interf ace cable 5 m, straight connector K5P2M-SB-M12-PROF Cable 2 m, female 5-pol. M12, male 5-pol. M12 KAB-LLD500-10M-S Interf ace cable 10 m, straight connector K5P2M-B-M12-PROF Cable 2 m, male connector 5-pol. M12, open ends KAB-LLD500-2M-SW Interf ace cable 2 m, angular connector K5P5M-B-M12-PROF Cable 5 m, female connector 5-pol. M12, open ends KAB-LLD500-5M-SW Interf ace cable 5 m, angular connector K5P5M-SB-M12-PROF Cable 5 m, female 5-pol. M12, male 5-pol. M12 KAB-LLD500-10M-SW Interf ace cable 10 m, angular connector K5P5M-S-M12-PROF Cable 5 m, male connector 5-pol. M12, open ends K5P10M-B-M12-PROF Cable 10 m, female connector 5-pol. M12, open ends Cable LLD-500-SSI K5P10M-SB-M12-PROF Cable 10 m, female 5-pol. M12, male 5-pol. M12 KAB-LLD500-2M-S-SSI Interf ace SSI cable 2 m, straight connector K5P10M-S-M12-PROF Cable 10 m, male connector 5-pol. M12, open ends Accessories 94133 Profibus OUT M12 connector, male ZT51_WEISS Stautubus Target board f or Laser type LLD light protector against stray light, Ø100 mm 94136 94145 Profibus IN M12 connector, female Profibus M12 terminating resistance 3M 3279 special Ref lectiv e tape, 300 x 300 mm General safety instructions Attention radiation laser. Do not stare into beam. Do not point the laser beam towards someone's eye. It is recommended to stop the beam by a matte object or matte metal shield. Laser regulations require the power to the sensor be switched off when turning off the whole system this sensor is part off. Subject to change without prior notice. WayCon Positionsmesstechnik GmbH email: info@waycon.de internet: www.waycon.biz Head Office Mehlbeerenstr. 4 82024 Taufkirchen Tel. +49 (0)89 67 97 13-0 Fax +49 (0)89 67 97 13-250 Office Köln Auf der Pehle 1 50321 Brühl Tel. +49 (0)2232 56 79 44 Fax +49 (0)2232 56 79 45